Towards robust fragility relations for buried segmented pipe in ground strain areas

Towards robust fragility relations for buried segmented pipe in ground strain areas

Seismic fragility relations of buried segmented pipelines are currently defined in terms of pipe repairs per unit length as a function of some measure of ground shaking or ground movement. In some current relations, both wave propagation (WP) and permanent ground deformation (PGD) damage are address...

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Bibliographic Details
Published in:Earthquake spectra Vol. 31; no. 3; pp. 1839 - 1858
Main Authors: O'Rourke, Michael, Filipov, Evgueni, Uckan, Eren
Format: Journal Article
Language:English
Published: Earthquake Engineering Research Institute 01-08-2015
Subjects:
Asia
Damage
deformation
Earthquakes
elastic waves
Engineering geology
engineering properties
faults
Fragility
geologic hazards
ground motion
Grounds
Izmit earthquake 1999
Izmit Turkey
Kocaeli Turkey
liquefaction
Middle East
natural hazards
Pipe
Pipelines
propagation
seismic waves
Seismology
Strain
strike-slip faults
Turkey
Wave propagation
MED, Turkey
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Summary:Seismic fragility relations of buried segmented pipelines are currently defined in terms of pipe repairs per unit length as a function of some measure of ground shaking or ground movement. In some current relations, both wave propagation (WP) and permanent ground deformation (PGD) damage are addressed by combining the hazard into a measure of ground strain. One troubling aspect of these fragility relations is that each new event seems to provide new data that in some cases, are significantly different from existing relations. Herein, we investigate the robustness of these expressions by using new data from the 1999 M = 7.4 Turkey earthquake. A methodology is presented to calculate ground strains, by considering relative PGD along the axis of the pipeline. Results indicate that, for the strain/damage range of interest, a linear function (on a log-log scale) provides a relatively robust fragility relation for buried segmented pipes.
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ISSN:8755-2930
1944-8201
DOI:10.1193/032311EQS076M